EECS 3451Signals and Systems
H. Chesser (PSE 246)
Agenda
Course Overview and Mechanics: Syllabus Marking Schedule Labs Etc
Intro to Signals (Chapter 1) Assignment 1
Course Content, Format
Continuous (CT) and sampled or discrete (DT) signals
Theory Behaviour of linear differential equations with constant
coefficients Signal analysis/synthesis using transforms (Fourier,
Laplace, Z) and convolution Applications
filtering,signal processing feedback controls
Two 90-minute lectures, 3-hour lab each week
Textbook, Tools
Wickert, M., “Signals and Systems for Dummies”, John Wiley & Son, 2013, ISBN: 978-1-118-47581-2
Python (Anaconda), Jupyter Notebooks available in Lassonde Bldg computers
Open source – recommend Anaconda distribution (Python 3.4 - “I want Python 3.4” link):
http://continuum.io/downloads#py34
Course Grading
Assignments (4) 10%
Quizzes (2) 10%
Lab Projects 25%
Mid-term 15%
Exam 40%
TOTAL 100%
Rough Lecture/Assignment/Quiz/Lab Schedule
Week Lab (M, F) Day Date Assignment/Quiz Lecture Topic (Reading)
1 R 10-Sep Introduction to Signals (Chapter 1):1. Transformations: Shifting and Scaling, 2. Types: Periodic vs. Aperiodic; Even vs. odd; Energy vs. Power, 3. Examples: Exponential; Sinusoidal; Ramp; Gate; Impulse; Step2 Lab 1 (Python) T 15-Sep
R 17-Sep CT and DT Systems (Chapter 2):
1. System Connections and Properties
3 T 22-Sep Assignment 1 due Time Domain Analysis, LTIC Systems (Chapter 3):1. Constant Coefficient Differential Equations 2. Solution of Differential Equation3. Convolution Lab 1 due R 24-Sep
4 Lab 2 (Audio) T 29-Sep
R 1-Oct Quiz 1
5 T 6-Oct Integral Transforms (4.1, 4.2, 4.3, Chapter 6):1. Transformation of LTICs 2. Solution of LTICs using Laplace Transforms3. Transfer functions from Constant Coefficient Differential Equations4. Convolution Property, Multiplication Property
Lab 2 due R 8-Oct
6 Lab 3 (B 5th) T 13-Oct Assignment 2 due Fourier Transform - CT Systems (Chapter 4, 5):1. CT Fourier Transform for CT Periodic Signal 2. CT Non-periodic Signals: CT Fourier Transform3. Properties of CT Fourier Transform
R 15-Oct
7 Lab 3 due T 20-Oct
R 22-Oct Mid-term Test
Rough Lecture/Assignment/Quiz Schedule (Cont’d)Week Lab (M, F) Day Date Assignment/Quiz Topic/Exercises
8No Labs
T 27-Oct Design of Frequency Selective Filters (Chapter 7)1. Design of CT (analogue) filters2. Butterworth filters
Sampling and Quantization (Chapter 9)
Time Domain Analysis of DT Systems (Chapter 10)z Transform for DT Signals and Systems (Chapter 13)1. z Transform: Definition 2. DTFT for DT Periodic Signal 3. Properties of DT Fourier Transform 4. Convolution Property, Multiplication Property: Circular Convolution. Digital Signal Processing
R 29-Oct Fall Reading Day
9 Lab 4 (4-Sound Synth) T 3-Nov Assignment 3 due
R 5-Nov
10
Lab 4 due
T 10-Nov
R 12-Nov
11 Lab 5 (6 – Speech) T 17-Nov Assignment 4 due
R 19-Nov
12
Lab 5 due
T 24-Nov
R 26-Nov Quiz 2
13 Lab 6 (12 – AM radio) T 1-Dec CT and DT Control Systems1. Transfer functions from Constant Coefficient Difference Equations
R 3-Dec
14 Lab 6 due T 8-Dec No class
R 10-Dec No Class
Course Web Site
Course resources available online - wiki.eecs.yorku.ca
You can check site to: Review lecture material Lab manual Check schedule, due dates, marks Submit assignments, labs – use web submit Ask course-related questions via the forum
Intro to Signals (Chapter 1)
Typically we are talking about: Time-varying – continuously (CT) OR sampled (DT) Electrical (voltage/current) output…
…from a transducer which is monitoring some ongoing process (sending analog information), OR
…from a processor or ADC which is sending digital information
Main idea is that there is a “sender” and “receiver” that exchange information via the signal
Ts = 0.25
Signal Examples
Sound (pressure) - CT
Light - DT
u
v
Analog vs. Digital Signals
CT and DT classification is a mathematical one
Analog/Digital classification is based on hardware and how it operates on signals
In general CT = Analog, DT = Digital
x ( t )=sin (0. 2πt )x [ k ]=sin (0. 2 πk )
Periodic vs. Aperiodic
Signal (CT, DT) is periodic if x ( t)=x ( t+T 0 )
x [ k ]=x [ k+K0 ]
CT, sinusoidal signals are periodic by definitionx ( t)=A sin(2π ft+θ)=x ( t+T 0 )=A sin(2π ft+2π fT 0+θ)
fT 0=mT 0=1 / f (m=1)
x [ k ]=A sin(2 π fT sk+θ )=x [ k+K0 ]=A sin(2 π fT sk+2 π fT sK0+θ )fT sK0=mK0=m / fT s =mT 0 /T s
Sampled sinusoidal signals may NOT be periodic
To be periodic, the sampling period and sinusoidal frequency (period) MUST be expressible as a rational fraction (n/m).
Example Problems
-8 -6 -4 -2 0 2 4 6 8-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1x
t
-8 -6 -4 -2 0 2 4 6 8-1
-0.8
-0.6
-0.4
-0.2
0
0.2
0.4
0.6
0.8
1x
t
(1) CT signal is
What is period?
Top plot also shows the sampled DT signal for Ts = 1 s
Is x[k] periodic? If so, what is K0?
(2) Bottom is the DT sampled signal for Ts = 0.75 s.
Is x[k] periodic? If so, what is K0?
x ( t)=sin(0 . 25πt )
Complex Number Review (Chapter 2)
Believing in Imaginary Numbers Quick refresher for Lab 1 Contain a real part and an
imaginary part
Leonhard Euler, 1707 - 1783
e j π=? ?
j=√−1
a+ jb=A∢θ=A e jθ
A=√a2+b2
θ=tan−1 ba
W1-R
Phasor Diagram Example
s=−0 . 5+ j 4 π x ( t )=estPhasor Diagram Time Domain (Real Component)
Assignment 1
Will post to course page today